ift issueshttps://gitlab.mpcdf.mpg.de/groups/ift/-/issues2018-09-11T09:50:38Zhttps://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/253inverter=2018-09-11T09:50:38ZChristoph Lienhardinverter=https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/252Constant model jacobian buggy2018-07-11T10:14:53ZReimar H LeikeConstant model jacobian buggyThe jacobian of the ConstantModel is defined as
```
self._jacobian = 0.
```
This already looks quite simplified and as one woould expect it easily causes trouble, e.g. as shown in this example:
```
import nifty5 as ift
space = ift.RGSpa...The jacobian of the ConstantModel is defined as
```
self._jacobian = 0.
```
This already looks quite simplified and as one woould expect it easily causes trouble, e.g. as shown in this example:
```
import nifty5 as ift
space = ift.RGSpace(4)
a = ift.full(space, 1.)
hspace = space.get_default_codomain()
ht = ift.HarmonicTransformOperator(hspace, target = space)
b = ift.full(hspace, 1.)
multia = ift.MultiField.from_dict({'a':a})
var_a = ift.Variable(multia)['a']
const_b = ift.Constant(multia, b)
sumabvalue = var_a.value + ht(const_b).value
# Here it crashes due to domain mismatch, even though you can add the values just fine
sumab = var_a + ht(const_b)
```
There are at least 2 possible ways to fix this issue. One possibility is to make the ConstantModel use the position again, such that it can return zeros in the correct domain. Another possibility is to have an operator that maps anything to an empty MultiDomain. (which then can be added with other fields)
I favor the last one, it is however incompatible with the way that martin wants to unify Field and MultiField.
Any thoughts @kjako @mtr @parras ?https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/251Versioning problems when using Nifty in dependencies for other projects2018-07-03T15:04:57ZChristoph LienhardVersioning problems when using Nifty in dependencies for other projectsI am currently trying to set up a working setup.py for the HMCF project and have problems making pip install NIFTy on the fly.
I am not an expert and therefore the reason for my problem may lie somewhere else, but so far I think the sour...I am currently trying to set up a working setup.py for the HMCF project and have problems making pip install NIFTy on the fly.
I am not an expert and therefore the reason for my problem may lie somewhere else, but so far I think the source of it all is that the version is not specified directly in setup.py.
The problem arises, when I specify a dependency link to NIFTy on git in my HMCF [setup.py](https://gitlab.mpcdf.mpg.de/ift/HMCF/blob/master/setup.py):
setup(name=...
dependency_links=["git+https://gitlab.mpcdf.mpg.de/ift/NIFTy@NIFTy4#egg=nifty4-4.2"],
install_requires=["numpy>=1.10", "nifty4>=4.2", "scipy>=0.17", "h5py>=2.5.0"],
...)
This does not work (I also tried fiddling around with the egg argument, leaving it out, do not specify a version, etc. pp, but the problem remains).
> Could not find a version that satisfies the requirement nifty4 (from hmcf==1.0) (from versions: )
> No matching distribution found for nifty4 (from hmcf==1.0)
As far as I understand the problem: pip wants to have a version number.
In several stack overflow questions and related corners of the internet people state that pip looks for a version in the setup.py file of the dependency.
Since NIFTy does not specify the version in an obvious way, pip will not treat NIFTy as a valid package.
Possible Solutions:
===================
1. Reinstate NIFTy on python servers as done with [NIFTy1](https://pypi.org/project/ift_nifty)
2. Specify a version (hard-coded if you want to call it like this) and skip the `__version__` stuff in the setup.py file of NIFTy.
I know, this is handy, but I could not find a solution where pip dependencies work while NIFTy is only available via git
I tried the latter solution on a new nifty branch called [setup_version_test](https://gitlab.mpcdf.mpg.de/ift/NIFTy/tree/setup_version_test) and it works using
setup(name=...
dependency_links=["git+https://gitlab.mpcdf.mpg.de/ift/NIFTy@setup_version_test#egg=nifty4-4.2"],
...)
in the HMCF setup.py file.
Since we have a number of projects which depend on Nifty and simulate easy installation by issuing a setup.py file (talking about you, [starblade](https://gitlab.mpcdf.mpg.de/ift/starblade/blob/master/setup.py)),
I find it very important that it is actually possible to achieve an on-the-fly installation of Nifty.
Everything in here was done with MPA resources, python 3.5.1 and pip 9.0.1https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/249Linear Operator-MultiFields bug2018-07-09T11:59:46ZReimar H LeikeLinear Operator-MultiFields bugThe new feature that one can add multifields that do not have exactly the same domain causes trouble with the check_input function of linear operators. One fix would be to allow ANY linear operator to operate on ANY MultiField, which is ...The new feature that one can add multifields that do not have exactly the same domain causes trouble with the check_input function of linear operators. One fix would be to allow ANY linear operator to operate on ANY MultiField, which is well defined since a linear operator applied to zero is always zero. Thoughts?
(minimal code example for NIFTy crashing below)
```
import nifty5 as ift
space = ift.RGSpace(4)
a = ift.full(space, 1.)
space2 = ift.RGSpace(5)
b = ift.full(space, 1.)
multi = ift.MultiField({'a':a, 'b':b})
var_a = ift.Variable(multi)['a']*2 # Multiplying this by 2 causes NIFTy to crash later
# Here it crashes due to domain mismatch
var_a.gradient.adjoint_times(a)
```https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/248state of branches2019-02-01T08:30:53ZMartin Reineckestate of branchesWith NIFTy 5 around the corner, I'd like to get an overview which of the current branches we still need...
- try_different_sampling: @reimar, should we merge this?
- new_sampling: still has "krylov" files, can this be removed?
- complex...With NIFTy 5 around the corner, I'd like to get an overview which of the current branches we still need...
- try_different_sampling: @reimar, should we merge this?
- new_sampling: still has "krylov" files, can this be removed?
- complex_fixes: changes seem very small. @parras, should this be merged?
- symbolicDifferentiation: we should probably keep this, so that we don't forget how it is done if we ever need it again ;)
- yango_minimizer: @reimar, what's the status?
- krylov_probing: @reimar, ditto
- addUnits: will be kept since it might be useful in the future
- new_los: @kjako, I still need your opinion on thishttps://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/247[post Nifty5] make Fields and MultiFields immutable?2018-10-17T11:59:49ZMartin Reinecke[post Nifty5] make Fields and MultiFields immutable?Currently, `Field`s and `MultiField`s are the only NIFTy classes whose value can change after they have been constructed. It may be worthwhile to change this and make them immutable as well.
Pros:
- code will get quite a bit shorter (e....Currently, `Field`s and `MultiField`s are the only NIFTy classes whose value can change after they have been constructed. It may be worthwhile to change this and make them immutable as well.
Pros:
- code will get quite a bit shorter (e.g. no more explicit `lock()` calls)
- less potential for subtle usage errors
Cons:
- slight performance hit by additional copying of data (operators like += will not be as efficient any more)https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/246Slight re-design of the `Energy` class2018-06-27T20:37:45ZMartin ReineckeSlight re-design of the `Energy` classCurrently, most energy classes take constructor arguments which allow their curvatures to be inverted. This only makes sense as long as we are not working very much with sums of energies. In this latter case, it doesn't matter if the ind...Currently, most energy classes take constructor arguments which allow their curvatures to be inverted. This only makes sense as long as we are not working very much with sums of energies. In this latter case, it doesn't matter if the individual curvatures are invertible or not, we just need to make sure that the summed-up curvature is invertible.
I'd like to propose the following changes:
- All inversion-related functionality is removed from the energy classes we currently have
- the `Energy` base class gets a new method `make_curvature_invertible()`, which takes an `IterationController` and optionally another `Energy` that serves as a preconditioner (we need an `Energy` here and not simply a `LinearOperator`, since the preconditioning might depend on position). This method returns a new `Energy` object, with invertible curvature.
- we add a new class `SamplingEnabledEnergy`, whose constructor takes two energies `prior` and `likelihood` and an `IterationController`. It returns an energy object that behaves like the sum of prior and likelihood, and returns a sampling-enabled curvature.https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/245dtypes in UnitLogGauss2018-06-27T15:55:19ZPhilipp Arrasparras@mpa-garching.mpg.dedtypes in UnitLogGauss```
import numpy as np
import nifty5 as ift
space = ift.RGSpace(2)
f = ift.from_random('normal', space)
var_f = ift.Variable(f)
g = ift.from_random('normal', space, dtype=np.complex)
var_g = ift.Variable(g)
multi = ift.MultiField({'f':...```
import numpy as np
import nifty5 as ift
space = ift.RGSpace(2)
f = ift.from_random('normal', space)
var_f = ift.Variable(f)
g = ift.from_random('normal', space, dtype=np.complex)
var_g = ift.Variable(g)
multi = ift.MultiField({'f': f, 'g': g})
var = ift.Variable(multi)
op = ift.ScalingOperator(1j, space)
op_multi = ift.ScalingOperator(1j, var.value.domain)
lh_f = ift.library.UnitLogGauss(op(var_f))
lh_g = ift.library.UnitLogGauss(op(var_g))
lh = ift.library.UnitLogGauss(op_multi(var))
print(lh_f.value)
print(lh_f.gradient)
print()
print(lh_g.value)
print(lh_g.gradient)
print()
print(lh.value)
print(lh.gradient['f'])
print(lh.gradient['g'])
```
Results in:
```
2.230929182659062
nifty5.Field instance
- domain = DomainTuple, len: 1
RGSpace(shape=(2,), distances=(0.5,), harmonic=False)
- val = array([-1.52732309+0.j, -1.45915817+0.j])
0.30445727594179295
nifty5.Field instance
- domain = DomainTuple, len: 1
RGSpace(shape=(2,), distances=(0.5,), harmonic=False)
- val = array([0.25117854+0.27192986j, 0.45978435-0.51036889j])
2.535386458600855
nifty5.Field instance
- domain = DomainTuple, len: 1
RGSpace(shape=(2,), distances=(0.5,), harmonic=False)
- val = array([-1.52732309+0.j, -1.45915817+0.j])
nifty5.Field instance
- domain = DomainTuple, len: 1
RGSpace(shape=(2,), distances=(0.5,), harmonic=False)
- val = array([0.25117854+0.27192986j, 0.45978435-0.51036889j])
```
I would expect that the gradient has the same `dtype` as the input.https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/244Update to NIFTy_52018-06-27T15:54:39ZPhilipp Arrasparras@mpa-garching.mpg.deUpdate to NIFTy_5- [x] Create NIFTy fork (@mtr @parras)
- [ ] Move KL and poisson demo from GlobalNewton to NIFTy fork. (@parras)
- [x] Revert documentation to NIFTy4 (@parras)
Use `Model` for constructing the following energies (@mtr, @jruestig, @reima...- [x] Create NIFTy fork (@mtr @parras)
- [ ] Move KL and poisson demo from GlobalNewton to NIFTy fork. (@parras)
- [x] Revert documentation to NIFTy4 (@parras)
Use `Model` for constructing the following energies (@mtr, @jruestig, @reimar, @pfrank):
- [ ] `GaussianLH`, `PoissonianLH` (new curvature)
- [ ] `NoiseModel`
- [ ] `make_correlated_field` (move from GlobalNewton)
- [ ] `make_amplitude_model` (move from GlobalNewton)
- [ ] `make_multifrequency_correlated_field` / `separable_correlations`(move from GlobalNewton and adopt)
To this end one probably needs to implement a Gaussian and a Poissonian likelihood which is to be used in all energies (see GlobalNewton repository). Please add documentation directly.
Documentation:
- [ ] Documentation on volume factors (see also #234, @reimar, @maxn).
- [ ] Add Models (@hutsch) and MultiFields (@mtr ) to top-level documentation.
- [ ] `__add__` and ` __sub__` of `Energy` (@mtr)
- [ ] `Constant` (@jruestig, @clienhar)
- [ ] `LocalModel` (@jruestig, @clienhar)
- [ ] `Model` (@jruestig, @clienhar)
- [ ] `Add` in models (@jruestig, @clienhar)
- [ ] `ScalarMul` (@jruestig, @clienhar)
- [ ] `LinearModel` (@jruestig, @clienhar)
- [ ] `Variable` (@jruestig, @clienhar)
- [ ] `ModelGradientOperator` (@clienhar)
- [ ] `SamplingEnabler` (@kjako)
- [ ] `SelectionOperator` (@lplatz)
Tests:
- [ ] Consistency checks for all linear operators (see `ift.extra`!). (@lplatz, @silvan, @mawandro)
- [ ] Gradient consistency checks for all energies in library (see `ift.extra`, do that when the energies are rewritten). (@lplatz, @silvan, @mawandro)
- [ ] Unit tests for all new functionality, especially for models. (@parras, @jruestig)
- [ ] Write `ift.extra.model_consistency_check` and check every model with it (@reimar, @silvan)
Demos:
- [X] Fix `demos/poisson_demo.py` or move poisson demo from GlobalNewton here.
- [X] Think about concept for demos. Which ones? How universal? Which features? MAP solution for multi-problems until Jakob's paper is out?
- [ ] Write demos (first `demo/advanced.py`, then `getting_started_123`, 1: R=mask, WF, 2: R=mask, PoissonLogNormal, 3: R=LOS, PosTanh, Gauss, AmplitudeReconstruction). Start when energies are ready. (@kjako, @natalia)
Internals:
- [ ] Add something like a `CurvatureInversionEnabler` class, which takes an `Energy`, an `IterationController` and (optionally) a preconditioner and adds invertability to the energy's curvature operator. Having such a class would probably allow for some code reductions in many energy classes. (This is now tracked as issue #246). (@mtr)
- [x] Move classes out of `model.py` except `Model`.
- [ ] Revert automatical casting of `Field` to `Model`. (@parras)
- [ ] Rewrite `__add__` of `Energy` such that no trees are created (@mtr).
To be discussed:
- [X] Automatically cast `Field` to `Model` when multiplied with a `Model`?https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/243feature request: fun with multi2018-06-15T05:40:25ZReimar H Leikefeature request: fun with multiMultifields and operators do not yet support some of the convenience functionality present for normal fields and operators. For example a MultiField that is multiplied with a BlockDiagonalOperator is not automatically converted to a Diag...Multifields and operators do not yet support some of the convenience functionality present for normal fields and operators. For example a MultiField that is multiplied with a BlockDiagonalOperator is not automatically converted to a Diagonal Operator the way it is done for fields. Minimal example attached.
[multi_issue.py](/uploads/f634d63059005da5f20731d673373e8c/multi_issue.py)Martin ReineckeMartin Reineckehttps://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/242Sandwich does not like Field buns2018-05-29T12:35:17ZJakob KnollmuellerSandwich does not like Field bunsHi,
The SandwichOperator does not accept Fields as bun, as they do not have an .adjoint method. I propose either to allow Fields and cast them to Diagonal operators or to check for them in the init.Hi,
The SandwichOperator does not accept Fields as bun, as they do not have an .adjoint method. I propose either to allow Fields and cast them to Diagonal operators or to check for them in the init.https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/241SmoothnessOperator ill-posedness2019-02-01T08:30:45ZSebastian KehlSmoothnessOperator ill-posednessVisualizing nifty's SmoothnessOperator [smoothingoperator.pdf](/uploads/34b3a1a3e4326d00dc2695b100224f9f/smoothingoperator.pdf) over some PowerSpace, I was wondering whether having no penalty on the highest frequency entry (indicated by ...Visualizing nifty's SmoothnessOperator [smoothingoperator.pdf](/uploads/34b3a1a3e4326d00dc2695b100224f9f/smoothingoperator.pdf) over some PowerSpace, I was wondering whether having no penalty on the highest frequency entry (indicated by the empty last row and column in the attached picture) is the desired behavior?
I understand that this might be desired for the zero mode (and maybe the next one too) since the data should be informative enough to render the overall problem well-posed. But for the highest frequency mode, I would expect heavy problems in optimization from leaving this degree-of-freedom basically free.https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/240Drawing random fields in multi domains2018-05-23T10:15:45ZPhilipp Arrasparras@mpa-garching.mpg.deDrawing random fields in multi domainsThe following command breaks:
```
ift.Field.from_random("normal", ift.MultiDomain.make({'a': ift.RGSpace(1)}))
```
How can I fix that? Or is it not implemented yet?The following command breaks:
```
ift.Field.from_random("normal", ift.MultiDomain.make({'a': ift.RGSpace(1)}))
```
How can I fix that? Or is it not implemented yet?https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/239Branch cleanup2018-05-23T12:36:47ZMartin ReineckeBranch cleanupI'd like to cleanup the branches which are no longer used. Could you please give me feedback which ones of your branches are still needed?
@reimar: easy_samples
Another question: should we merge the `working_on_demos` branch?I'd like to cleanup the branches which are no longer used. Could you please give me feedback which ones of your branches are still needed?
@reimar: easy_samples
Another question: should we merge the `working_on_demos` branch?https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/238extra.check_value_gradient_consistency does not work for MultiField2018-05-23T09:22:38ZJakob Knollmuellerextra.check_value_gradient_consistency does not work for MultiFieldextra.check_value_gradient_consistency calls Field.from_random, which does not support drawing random MultiFields.
Does it make more sense to remove the static Field.from_random, which always requires an additional domain, and instead i...extra.check_value_gradient_consistency calls Field.from_random, which does not support drawing random MultiFields.
Does it make more sense to remove the static Field.from_random, which always requires an additional domain, and instead introduce something like domain.random(random_type)? Alternatively one has to include checks for MultiField or regular Field.
Jakobhttps://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/237Comparing Fields to floats2018-05-16T10:08:38ZPhilipp Arrasparras@mpa-garching.mpg.deComparing Fields to floatsIs the following behaviour intended?
```
import nifty4 as ift
f = ift.Field.full(ift.RGSpace(1), 1.)
if f == 0.:
print(f==0.)
```
Results in:
```
nifty4.Field instance
- domain = DomainTuple, len: 1
RGSpace(shape=(1,), distan...Is the following behaviour intended?
```
import nifty4 as ift
f = ift.Field.full(ift.RGSpace(1), 1.)
if f == 0.:
print(f==0.)
```
Results in:
```
nifty4.Field instance
- domain = DomainTuple, len: 1
RGSpace(shape=(1,), distances=(1.0,), harmonic=False)
- val = array([False])
```https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/236try except in InverseEnabler.draw_sample2018-05-02T08:01:18ZChristoph Lienhardtry except in InverseEnabler.draw_samplejust catching every error in the `draw_sample` function of the `InversionEnabler` class might shadow 'real' errors.
IMO only `ValueError`s should be excepted.
(just had a problem and only got the 'cannot draw from inverse of this opera...just catching every error in the `draw_sample` function of the `InversionEnabler` class might shadow 'real' errors.
IMO only `ValueError`s should be excepted.
(just had a problem and only got the 'cannot draw from inverse of this operator', which is weird, if the InversionEnabler is on. Also I was not drawing from the inverse.
The reason was, that the `try` clause caught a completely different error jumped into `except` where it tried to draw a sample from the inverse of said operator, which was not implemented for that operator)https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/234Documentation for our volume factor approach?2018-06-27T15:54:46ZMartin ReineckeDocumentation for our volume factor approach?Do we have a short document describing why (and how) our approach with almost no volume factors works?
Vanessa Boehm asked me for an explanation, which I can't give, and I expect more requests of that sort.
@reimar, would it be possible...Do we have a short document describing why (and how) our approach with almost no volume factors works?
Vanessa Boehm asked me for an explanation, which I can't give, and I expect more requests of that sort.
@reimar, would it be possible to add something to our documentation?https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/233Incorrect Energy.curvature() call in minimizers/conjugate_gradient.py?2018-04-20T13:47:34ZLukas PlatzIncorrect Energy.curvature() call in minimizers/conjugate_gradient.py?In [minimization/conjugate_gradient.py, line 76](https://gitlab.mpcdf.mpg.de/ift/NIFTy/blob/NIFTy_4/nifty4/minimization/conjugate_gradient.py#L76) there is a call to 'energy.curvature(d)'.
However all energies defined in NIFTy only have...In [minimization/conjugate_gradient.py, line 76](https://gitlab.mpcdf.mpg.de/ift/NIFTy/blob/NIFTy_4/nifty4/minimization/conjugate_gradient.py#L76) there is a call to 'energy.curvature(d)'.
However all energies defined in NIFTy only have argument-less curvature methods.
Still, the ConjugateGradient Class is usable without error messages. What am I missing?https://gitlab.mpcdf.mpg.de/ift/nifty/-/issues/232Random seed in extra/tests2018-04-26T15:01:09ZPhilipp Arrasparras@mpa-garching.mpg.deRandom seed in extra/testsIf one calls tests like `nifty4.extra.consistency_check(op)` the random seed afterwards is different. Would it be sensible to reset the numpy random seed?If one calls tests like `nifty4.extra.consistency_check(op)` the random seed afterwards is different. Would it be sensible to reset the numpy random seed?